| Scalable and accurate deep learning with electronic health records |
204 |
| Pivotal trial of an autonomous AI-based diagnostic system for detection of diabetic retinopathy in primary care offices |
117 |
| Advanced machine learning in action: identification of intracranial hemorrhage on computed tomography scans of the head with clinical workflow integration |
40 |
| Fast and accurate view classification of echocardiograms using deep learning |
39 |
| Artificial intelligence and machine learning in clinical development: a translational perspective |
38 |
| Prescribable mHealth apps identified from an overview of systematic reviews |
38 |
| Development and validation of a deep learning algorithm for improving Gleason scoring of prostate cancer |
36 |
| Respiration rate and volume measurements using wearable strain sensors |
36 |
| Developing and adopting safe and effective digital biomarkers to improve patient outcomes |
36 |
| Deep learning enables robust assessment and selection of human blastocysts after in vitro fertilization |
34 |
| Using science to sell apps: Evaluation of mental health app store quality claims |
34 |
| Integrating machine learning and multiscale modeling-perspectives, challenges, and opportunities in the biologica biomedical, and behavioral sciences |
33 |
| Artificial intelligence powers digital medicine |
31 |
| The use of photoplethysmography for assessing hypertension |
30 |
| Deep learning algorithm predicts diabetic retinopathy progression in individual patients |
30 |
| Impact of remote patient monitoring on clinical outcomes: an updated meta-analysis of randomized controlled trials |
25 |
| Wearable sensors for monitoring the internal and external workload of the athlete |
23 |
| Digital health: a path to validation |
23 |
| The inconvenient truth about AI in healthcare |
22 |
| Highly flexible, wearable, and disposable cardiac biosensors for remote and ambulatory monitoring |
22 |
| Wearable sensors for monitoring the physiological and biochemical profile of the athlete |
22 |
| Deep learning versus human graders for classifying diabetic retinopathy severity in a nationwide screening program |
21 |
| Digital biomarkers for Alzheimer's disease: the mobile/wearable devices opportunity |
21 |
| Standalone smartphone apps for mental health-a systematic review and meta-analysis |
21 |
| Deep learning and alternative learning strategies for retrospective real-world clinical data |
20 |
| Deep learning predicts hip fracture using confounding patient and healthcare variables |
20 |
| Deep echocardiography: data-efficient supervised and semi-supervised deep learning towards automated diagnosis of cardiac disease |
19 |
| Automation of the kidney function prediction and classification through ultrasound-based kidney imaging using deep learning |
18 |
| Automatic emotion and attention analysis of young children at home: a ResearchKit autism feasibility study |
18 |
| Large-scale wearable data reveal digital phenotypes for daily-life stress detection |
18 |
| Wearable activity monitors to assess performance status and predict clinical outcomes in advanced cancer patients |
17 |
| Real-world menstrual cycle characteristics of more than 000 menstrual cycles |
17 |
| Clinical assessment of a non-invasive wearable MEMS pressure sensor array for monitoring of arterial pulse waveform, heart rate and detection of atrial fibrillation |
17 |
| Patients' views of wearable devices and AI in healthcare: findings from the ComPaRe e-cohort |
16 |
| Machine learning and medical education |
16 |
| Why digital medicine depends on interoperability |
15 |
| Characterizing the clinical relevance of digital phenotyping data quality with applications to a cohort with schizophrenia |
15 |
| Wearable sensors for Parkinson's disease: which data are worth collecting for training symptom detection models |
15 |
| Lab-on-chip technology for chronic disease diagnosis |
14 |
| Best practices for analyzing large-scale health data from wearables and smartphone apps |
14 |
| Don't quote me: reverse identification of research participants in social media studies |
14 |
| Empowering the digital therapeutic relationship: virtual clinics for digital health interventions |
14 |
| Physician perspectives on integration of artificial intelligence into diagnostic pathology |
13 |
| The reproducibility crisis in the age of digital medicine |
12 |
| Similar image search for histopathology: SMILY |
12 |
| Digital biomarkers of cognitive function |
12 |
| By the numbers: ratings and utilization of behavioral health mobile applications |
12 |
| Beyond implementation: digital health innovation and service design |
11 |
| Randomized controlled trial of a 12-week digital care program in improving low back pain |
11 |
| A computer vision system for deep learning-based detection of patient mobilization activities in the ICU |
11 |
